7/02/2006 Lecture 6 Attention. 7/02/2006 Lecture Outline: What is attention? Different types of...
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Transcript of 7/02/2006 Lecture 6 Attention. 7/02/2006 Lecture Outline: What is attention? Different types of...
7/02/2006
Lecture 6
Attention
7/02/2006
Lecture Outline:
• What is attention?• Different types of attention• Neurophysiology of attention• Neglect
– Clinical features– Motor, sensory and motivational aspects
of neglect– Where does the neglect occur?
7/02/2006
What is Attention?
• It is more than just sensation and perception• Attention and arousal are not synonymous• There can be attentional deficits in perfectly awake
individuals• Extreme arousal (as in pain or terror) may impair the
flexibility of attention
7/02/2006
• Attention:Attention: ability to detect and respond to stimuli• Attention is not a unitary construct • just like memory there are many different types of attention• At the psychological level:At the psychological level: attention implies a preferential
allocation of processing resources and response channels to events that have become behaviorally relevant
• At the neural level:At the neural level: attention refers to alternations in the selectivity, intensity and duration of neuronal responses to such events
What is Attention?
7/02/2006
Types of Attention
1. Alertness and arousal – the basic aspects of attention that enable a person to extract information from the environment or to select a particular response (coma full alertness)
2. Vigilance (sustained attention) – the ability to sustain alertness (monitor an even or stimulus) continuously (adhd)
3. Selective attention – ability to scan events/stimuli and pick out the ones that are relevant (difficult to monitor two events in the same modality)
7/02/2006
Bottom-up and Top-down Processes
• Bottom-up processing – processing that starts with unprocessed sensory information and builds toward more conceptual representation
• Top-down processing – processing in which conceptual knowledge influences the processing or interpretation of lower level perceptual processing
7/02/2006
Neurophysiology of Attentional Matrix
1. Reticular activating system2. The superior colliculus3. The thalamus4. The parietal lobe5. The frontal lobe6. The cingulate cortex
7/02/2006
The Reticular Activating System (RAS)
• Arousal and wakefulness• Sleep-wake cycle• Cells in the reticular
formation can set the pace of activity of cells throughout the brain
• Damage to the RAS can produce reduced attention – confusional state or coma
• Stimulants and depressants have an effect on this system
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The Superior Coliculus
• This structure is important for directing visual attention to ‘novel’ stimuli
• Saccade – an eye movement in which the eyes jump from one position to the next (rather then moving smoothly)
• Express saccade – fast and reflexive in response to novel visual stimuli (superior coliculi)
• Regular saccade – voluntary eye movements (frontal eye fields)
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Thalamus
• Medial dorsal, intralaminar and reticular nuclei are important for general arousal (connected to the RAS)
• Pulvinar is involved in selective attention
7/02/2006
Parietal lobe
• Important for visual and spatial aspects of attention (remember the “where” pathway) and general attentional resources
• Domain-specific• Top-down processing• Hemineglect
7/02/2006
Anterior Cingulate Cortex
• Important for attentional selection
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7/02/2006
Frontal Lobe
• Important for complex aspects of attention
• Executive control of attention can inhibit the more reflexive aspects of attention
• Top-down processing • Domain non-specific• On-line holding of
information
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Hemineglect (Neglect)
• Neglect syndrome: the lack of attention to one side of space, usually the left, as a result of parietal damage
• Not attributed to a unitary deficit in arousal, orientation, representation, or intention
7/02/2006
Clinical Features
• Patients may shave, groom and dress one side of the body
• Patients may fail to eat food placed on left side of the plate
• Patients may fail to read the left side of words printed anywhere on the page
• In some cases neglect is more subtle
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• Most dramatic and observable aspects of neglect occur in the visual sphere
• However, the phenomenon can be multimodal – patients may also display a rightward bias during detection of auditory, somatosensory, and even olfactory targets
• Many patients may also have hemianopia or hemiparesis
Clinical Features
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Neglect in Non-human animals
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Is neglect due to sensory loss – hemianopia?
• Letter cancellation task• Since some patients
with hemianopia do not show neglect we can conclude that neglect is not due to hemianopia
• Hemianopia is neither necessary nor sufficient for the emergence of neglect
Patient has hemianopia but
no neglect
Patient shows neglect but has no hemianopia
7/02/2006
• Sensory-representational • Motor-exploratory• Limbic-motivational
Classification of Neglect Behaviors
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Sensory-Representational Component of Neglect-Extinction
The Line Bisection Test
Intact
Left Neglect Patient
• Intact individuals place bisection mark slightly to the left of true centre
• Neglect patients place it rightward of the centre
• Patients with left hemianopia are like intact individuals
• If patients are asked to close their eyes and point to toward body midline, the patients usually point right of midline
• There is a shrinkage of the mental representation of the left hemispace (hallucinations, REM)
7/02/2006
Sensory-Representational Component of Neglect - Internal Representations
• Left-neglect patients showe right side bias in their descriptions of memories
• Patient describing Piazza del Duomo
• The information is not obliterated
• Mental ‘spotlight’ fails to illuminate left-sided features
7/02/2006
Motor-Exploratory Aspects of Unilateral Neglect
• Patients with left neglect display a pervasive reluctance to scan and explore the left hemispace
• Neglect patients have disorganized scanning
• Decreased tendency to explore left side and excessive attraction exerted by stimuli on the right
• Improvement if letters are organized in rows
• Improvement if letters are erased rather then circled
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Motivational Aspects of Unilateral Neglect
• Patients with unilateral neglect devalue the lest side of the world and behave as if nothing important is happening on the left
• Food on the left side of the tray
Regular cancellation
Given money
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• At what level do patients ignore the stimuli on the left (peripherally or centrally; early-selection or late-selection deficit)?
• How would you test this?
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Are these two the same?
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Are these two the same?
The Gating in Neglect is Central, Not Peripheral – Implicit Processing
LATE SELECTION
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Determinants of Neglect
• Egocentric
(with respect to the observer)
• Allocentric
(with respect to another extrapersonal event)
• Object-centered
(with respect to a principal axis in the canonical representation of an object)
Federico Felini: Dov’é la sinistra?
7/02/2006
Object-Based Coordinates
• “Leftness” is relative
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Far-Space Versus Near-Space
• Some patients have left neglect only for the near-space within an arm’s reach
• Some patients have left neglect only for events in far-space, beyond arm’s reach
• Some patients show a “peripersonal” neglect of the body• Anosognosia – loss of ability to recognize or acknowledge
an illness or bodily defect (delusion that the paralyzed limb belongs to someone else)
• Sacks (The Man Who Fell out of Bed)
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Recovery
• A number of patients show recovery in the weeks following injury
• 50% of patients recover – 9 to 43 weeks
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Right Hemisphere Dominance For Spatial Attention
• Clinical evidence – contralesional neglect is more frequent, severe, and lasting after right hemisphere lesions
• Why is this the case?
7/02/2006
1. The left hemisphere attributes salience predominantly to the right side of events (shifts attention mostly in rightward direction)
2. The right hemisphere attributes salience to both side of events (distributes attention and shifts attention both left and right)
3. The right hemisphere devotes more neuronal resources to spatial attention and attentional tasks
Egocentric, allocentric, world-centered or object centered midpoint
Left side Right side
Right hemisphere (attends to both sides)
Left hemisphere (attends to right side)
R>>>>L R = L
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Evidence for Right Hemisphere Role in Spatial Tasks
• EEG evidence during spatial tasks• fMRI evidence during spatial tasks• The left hemisphere attends only to the
contralateral right hemispace whereas the right hemisphere attends to the entire extrapersonal space
7/02/2006
Functional Anatomy of Unilateral Neglect
• Evidence based on multilobar infracts, major head trauma or large neoplasams
• Traditional view – damage to the right inferior parietal lobe will produce unilateral neglect
• New evidence also implicates frontal lobes, cingulate gyrus, striatum and thalamus
7/02/2006
• Unilateral neglect is not a “parietal syndrome”, rather it is an “attentional network syndrome”
• Parietal “sensory” neglect• Frontal “motor’ neglect
Functional Anatomy of Unilateral Neglect
Thalamus Striatum
Frontal Eye Fields
Posterior Parietal Cortex
Cingulate Cortex
7/02/2006
Posterior Parietal Deficits - Balint’s Syndrome
1. Paralysis of eye fixation with inability to look voluntarily into the peripheral visual field
2. Disturbance of visual attention such that there is neglect of the peripheral field (only one object perceived at the time - simultagnosia)
• Optic ataxia • Anosognosia